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How call a specific method from property aspect with property name and prefix?

I want to develop a NotifyDataErrorInfoAspect with possharp.
The validation of the values depends on several changeable properties (MinValue, MaxValue ...). The contract can't work with variable parameters.
I want to build something similar to the DependencyPropertyAspect.
Each property with [DependencyProperty] has a number of optional methods. For example ValidatePropertyName.
[DependencyProperty]
public string Email { get; set; }
private bool ValidateEmail(string value)
{
return EmailRegex.IsMatch(value);
}
How can I do this?
[NotifyDataErrorInfo]
public string Name{ get; set; }
private IList<DataErrorInfo> ValidateName(string value)
{
return this.IsValidName(value);
}
[NotifyDataErrorInfo]
public int Age{ get; set; }
private IList<DataErrorInfo> ValidateAge(int value)
{
return this.IsValidAge(value);
}
[NotifyDataErrorInfo]
public string Email { get; set; }
private IList<DataErrorInfo> ValidateEmail(string value)
{
return this.IsValidEmail(value);
}
The attribute ImportMethod () only allows a fixed method name.
What is the best way?

When you need to import a method that doesn't have a fixed predefined name, you can implement IAdviceProvider interface in your aspect and provide ImportMethodAdviceInstance that takes a method name as a string argument.
Another important point is that your Validate methods take arguments of a specific type instead of object. Currently, it's not possible to create a generic attribute in C#, so you need to create two aspect classes to handle this case: an attribute that is an aspect provider and a generic aspect implementation.
Below is a sample implementation of NotifyDataErrorInfo aspect:
[PSerializable]
public class NotifyDataErrorInfoAttribute : LocationLevelAspect, IAspectProvider
{
public IEnumerable<AspectInstance> ProvideAspects(object targetElement)
{
Type propertyType = ((LocationInfo)targetElement).LocationType;
Type aspectType = typeof(NotifyDataErrorInfoAspectImpl<>).MakeGenericType(propertyType);
yield return new AspectInstance(
targetElement, (IAspect) Activator.CreateInstance(aspectType));
}
}
[PSerializable]
public class NotifyDataErrorInfoAspectImpl<T> : ILocationInterceptionAspect,
IInstanceScopedAspect,
IAdviceProvider
{
public Func<T, IList<DataErrorInfo>> ValidateDelegate;
public IEnumerable<AdviceInstance> ProvideAdvices(object targetElement)
{
LocationInfo property = (LocationInfo)targetElement;
string validateMethodName = "Validate" + property.Name;
yield return new ImportMethodAdviceInstance(
typeof(NotifyDataErrorInfoAspectImpl<>).GetField("ValidateDelegate"),
validateMethodName,
true);
}
public void OnSetValue(LocationInterceptionArgs args)
{
if (ValidateDelegate((T) args.Value)?.Any() == true)
throw new ArgumentException("...");
args.ProceedSetValue();
}
public void OnGetValue(LocationInterceptionArgs args)
{
args.ProceedGetValue();
}
public void RuntimeInitialize(LocationInfo locationInfo)
{
}
public object CreateInstance(AdviceArgs adviceArgs)
{
return this.MemberwiseClone();
}
public void RuntimeInitializeInstance()
{
}
}

HttpSessionStateBase losing property values of inherited type

We are using HttpSessionStateBase to store messages in a set up similar to this working example:
public class HttpSessionMessageDisplayFetch : IMessageDisplayFetch
{
protected HttpSessionStateBase _session;
private IList<ICoreMessage> messages
{
get
{
if (_session[EchoCoreConstants.MESSAGE_KEY] == null)
_session[EchoCoreConstants.MESSAGE_KEY] = new List<ICoreMessage>();
return _session[EchoCoreConstants.MESSAGE_KEY] as IList<ICoreMessage>;
}
}
public HttpSessionMessageDisplayFetch()
{
if (HttpContext.Current != null)
_session = new HttpSessionStateWrapper(HttpContext.Current.Session);
}
public void AddMessage(ICoreMessage message)
{
if (message != null)
messages.Add(message);
}
public IEnumerable<IResultPresentation> FlushMessagesAsPresentations(IResultFormatter formatter)
{
var mToReturn = messages.Select(m => m.GetPresentation(formatter)).ToList();
messages.Clear();
return mToReturn;
}
}
When we pass in a QualityExplicitlySetMessage (which inherits from ICoreMessage, see below) it is saved correctly to messages.
This is how the object looks after being inserted into the messages list, at the end of AddMessage(ICoreMessage message) above.
But when we come to access it after changing controllers the inherited member's properties are null, which causes a variety of null reference exceptions.
This is how the object now looks after we call FlushMessagesAsPresentations. I've commented out var mToReturn... as this tries to access one of these null ref properties.
I'd like to ask the following:
Why is the HttpSessionStateBase failing to capture these values taken
by the inherited type?
Is this an issue in saving to the HttpSession or in retrieving?
Is this anything to do with, as I suspect, inheritance?
Or is the fact I'm potentially calling a new controller that dependency injects the HttpSessionMessageDisplayFetch causing an issue?
I'm a first-time poster so please let me know if I'm making any kind of faux pas - Super keen to learn! Any input is very welcome.
Some potentially useful code snippets:
QualityExplicitlySetMessage
public class QualityExplicitlySetMessage : QualityChangeMessage
{
public QualityExplicitlySetMessage(IQPossession before, IQPossession after, IQEffect qEffect)
: base(before, after, qEffect)
{
IsSetToExactly = true;
}
}
QualityChangeMessage - Working example
public abstract class QualityChangeMessage : CoreMessage, IQualityChangeMessage
{
protected PossessionChange Change;
public PossessionChange GetPossessionChange()
{
return Change;
}
protected QualityChangeMessage(IQPossession before, IQPossession after, IQEffect qEffect)
{
Change = new PossessionChange(before, after, qEffect);
StoreQualityInfo(qEffect.AssociatedQuality);
}
public override IResultPresentation GetPresentation(IResultFormatter formatter)
{
return formatter.GetQualityResult(this);
}
#region IQualityChangeMessage implementation
public int LevelBefore
{
get { return Change.Before.Level; }
}
//... And so on with values dependent on the Change property.
}
CoreMessage - Working example
public abstract class CoreMessage : ICoreMessage
{
public string MessageType
{
get { return GetType().ToString(); }
}
public string ImageTooltip
{
get { return _imagetooltip; }
set { _imagetooltip = value; }
}
public string Image
{
get { return _image; }
set { _image = value; }
}
public int? RelevantQualityId { get; set; }
protected void StoreQualityInfo(Quality q)
{
PyramidNumberIncreaseLimit = q.PyramidNumberIncreaseLimit;
RelevantQualityId = q.Id;
RelevantQualityName = q.Name;
ImageTooltip = "<strong>" + q.Name + "</strong><br/>" + q.Description + "<br>" +
q.EnhancementsDescription;
Image = q.Image;
}
public virtual IResultPresentation GetPresentation(IResultFormatter formatter)
{
return formatter.GetResult(this);
}
}
UserController - Working example.
public partial class UserController : Controller
{
private readonly IMessageDisplayFetch _messageDisplayFetch;
public UserController(IMessageDisplayFetch messageDisplayFetch)
{
_messageDisplayFetch = messageDisplayFetch;
}
public virtual ActionResult MessagesForStoryletWindow()
{
var activeChar = _us.CurrentCharacter();
IEnumerable<IResultPresentation> messages;
messages = _messageDisplayFetch.FlushMessagesAsPresentations(_storyFormatter);
var vd = new MessagesViewData(messages)
{
Character = new CharacterViewData(activeChar),
};
return View(Views.Messages, vd);
}
}

Serialize a method invocation to JSON then deserialize and call the method

I need to find a way to serialize a method call and it's associated parameter. This is because we'll be passing payloads onto a queue (like MSMQ) and then later on a process will pick up the message and need to deserialize the payload and call the method required.
Both sides of the queue use the same C# library, but one is inside a Web context and the other is inside a batch process / console app.
I have demonstrated below what I'd like to do, however, I realise it may not be possible. I know I could always encapsulate the meta data of what target method call and the have some huge switch statement that maps a parameter/payload to a method, however, it would be very cool and succinct if I could call any method I want (it doesn't matter whether it's static).
namespace SerializableMethodCalls
{
public class DTO
{
public string MyData { get; set; }
public int AnInteger { get; set; }
}
public class DTO2
{
public string MyData2 { get; set; }
public int AnInteger2 { get; set; }
}
class Program
{
private static Queue<string> _queue = new Queue<string>();
static void Main(string[] args)
{
DTO payload = new DTO
{
AnInteger = 45678,
MyData = "Test"
};
DTO2 payload2 = new DTO2
{
AnInteger2 = 534653,
MyData2 = "test2"
};
DoSomething(payload);
DoSomething(payload2);
_queue.Enqueue(Serialize(DoSomething, payload));
while (_queue.Count > 0)
{
var message = _queue.Dequeue();
DeserializeAndCallMethod(message);
}
}
private static void DeserializeAndCallMethod(string message)
{
// somehow deserialize the method invocation and then call the method with the serialized payload!
}
public static void DoSomething(DTO2 payload2)
{
Console.WriteLine("Done2! {0}, {1}", payload2.AnInteger2, payload2.MyData2);
}
public static void DoSomething(DTO dto)
{
Console.WriteLine("Done! {0}, {1}", dto.AnInteger, dto.MyData);
}
public static string Serialize(Method method, object parameter)
{
// somehow serialize a method call!?
}
}
}
I'd be interested in hearing your thoughts
Many thanks
Kris

Convert with the demonstrated From/To... methods between your DTOs and reflective objects:
class TypeDTO {
public string AssemblyName;
public string ClassName;
public static TypeDTO FromType(Type type) {
return new TypeDTO() {
AssemblyName = type.Assembly.FullName,
ClassName = type.FullName
};
}
public Type ToType() {
return ToType(AppDomain.CurrentDomain);
}
public Type ToType(AppDomain domain) {
Assembly assembly = domain.GetAssemblies().Where(t => t.FullName == AssemblyName).Single();
return assembly.GetType(ClassName);
}
}
class MethodSignatureDTO {
public TypeDTO DeclaringType;
public string MethodName;
public TypeDTO[] ParameterTypes;
public static MethodSignatureDTO FromMethod(MethodInfo method) {
return new MethodSignatureDTO() {
DeclaringType = TypeDTO.FromType(method.DeclaringType),
MethodName = method.Name,
ParameterTypes = method.GetParameters().Select(t => TypeDTO.FromType(t.ParameterType)).ToArray()
};
}
public MethodInfo ToMethod() {
return ToMethod(AppDomain.CurrentDomain);
}
public MethodInfo ToMethod(AppDomain domain) {
Type[] parameterTypes = ParameterTypes.Select(t => t.ToType(domain)).ToArray();
return DeclaringType.ToType(domain).GetMethod(MethodName, parameterTypes);
}
}
class MethodCallDTO {
public MethodSignatureDTO Method;
public object Instance;
public object[] Arguments;
public object Invoke() {
return Invoke(AppDomain.CurrentDomain);
}
public object Invoke(AppDomain domain) {
return Method.ToMethod(domain).Invoke(Instance, Arguments);
}
}

ASMX webservice doesn't return any result

I'm trying to send an object of a custom class through my asmx webservice running on .net 4.0, but all i get is an empty response. See below:
<soap:Body>
<ActivateResponse xmlns="http://tempuri.org/">
<ActivateResult /> <!-- why is this empty -->
</ActivateResponse>
</soap:Body>
However, if i modify my method and change the return type for example from class A to B, then it returns all the properties of object B correctly. See below:
<ActivateResponse xmlns="http://tempuri.org/">
<ActivateResult>
<BtAddress>string</BtAddress>
<Name>string</Name>
<Number>string</Number>
</ActivateResult>
</ActivateResponse>
I'm wondering why its happening? I could blame to improper Serialization of class A but there's nothing fancy I'm involving in my class files. Both class files are almost similar in terms of contents and does not contain any Serialize attribute.
So, why does the webservice return one type, but not the other?
Class A:
public class A
{
private string code;
private bool isValid;
private int maxUniqueActivations;
private DateTime dateAdded;
private Customer customer = null;
private bool _initAsEmpty = false;
public License()
{
_initAsEmpty = true;
}
public string LicenseCode
{
get { return code; }
//set { code = String.IsNullOrWhiteSpace(value)? null : value.Trim(); }
}
//If i change return type to Customer, it works too
//so i dont think it should be blamed
public Customer Customer
{
get { return customer; }
}
public bool IsValid
{
get { return isValid; }
}
public int MaxUniqueActivations
{
get { return maxUniqueActivations; }
}
public DateTime DateAdded
{
get { return dateAdded; }
}
}
Class B:
public class Phone
{
private string btAddress, name, number;
private bool isValid;
private DateTime dateAdded;
private bool _initAsEmtpy = false;
public Phone()
{
_initAsEmtpy = true;
}
public string BtAddress
{
get { return btAddress; }
set { btAddress = string.IsNullOrWhiteSpace(value) ? null : value.Replace(":", "").Trim(); }
}
public string Name
{
get { return name; }
set { name = string.IsNullOrWhiteSpace(value) ? null : value.Trim(); }
}
public string Number
{
get { return number; }
set { number = string.IsNullOrWhiteSpace(value) ? null : value.Trim(); }
}
public bool IsValid
{
get { return isValid; }
}
public DateTime DateAdded
{
get { return dateAdded; }
}
}
some methods are suppressed

In order to be serializable, a class must have public setters on its properties. That's the difference between classes A and B, and the reason why A won't serialize.
Probably :)

I think the problem may be with the Customer class. Maybe it is private or something. Try checking it out.

Associating enums with strings in C#

I know the following is not possible because the Enumeration's type has to be an int
enum GroupTypes
{
TheGroup = "OEM",
TheOtherGroup = "CMB"
}
From my database I get a field with incomprehensive codes (the OEM and CMBs). I would want to make this field into an enum or something else understandable. Because if the target is readability, the solution should be terse.
What other options do I have?

I like to use properties in a class instead of methods, since they look more enum-like.
Here's an example for a Logger:
public class LogCategory
{
private LogCategory(string value) { Value = value; }
public string Value { get; private set; }
public static LogCategory Trace { get { return new LogCategory("Trace"); } }
public static LogCategory Debug { get { return new LogCategory("Debug"); } }
public static LogCategory Info { get { return new LogCategory("Info"); } }
public static LogCategory Warning { get { return new LogCategory("Warning"); } }
public static LogCategory Error { get { return new LogCategory("Error"); } }
public override string ToString()
{
return Value;
}
}
Pass in type-safe string values as a parameter:
public static void Write(string message, LogCategory logCategory)
{
var log = new LogEntry { Message = message };
Logger.Write(log, logCategory.Value);
}
Usage:
Logger.Write("This is almost like an enum.", LogCategory.Info);

You could also use the extension model:
public enum MyEnum
{
[Description("String 1")]
V1= 1,
[Description("String 2")]
V2= 2
}
Your Extension Class
public static class MyEnumExtensions
{
public static string ToDescriptionString(this MyEnum val)
{
DescriptionAttribute[] attributes = (DescriptionAttribute[])val
.GetType()
.GetField(val.ToString())
.GetCustomAttributes(typeof(DescriptionAttribute), false);
return attributes.Length > 0 ? attributes[0].Description : string.Empty;
}
}
usage:
MyEnum myLocal = MyEnum.V1;
print(myLocal.ToDescriptionString());

How about using a static class with constants?
static class GroupTypes
{
public const string TheGroup = "OEM";
public const string TheOtherGroup = "CMB";
}
void DoSomething(string groupType)
{
if(groupType == GroupTypes.TheGroup)
{
// Be nice
}
else if (groupType == GroupTypes.TheOtherGroup)
{
// Continue to be nice
}
else
{
// unexpected, throw exception?
}
}

Try adding constants to a static class. You don't end up with a Type, but you will have readable, organised constants:
public static class GroupTypes {
public const string TheGroup = "OEM";
public const string TheOtherGroup = "CMB";
}

I used a structure as alluded to in a previous answer, but did away with any complexity. To me, this was most like creating an enumeration of strings. It is used in the same manner that an enumeration is used.
struct ViewTypes
{
public const string View1 = "Whatever string you like";
public const string View2 = "another string";
}
Example use:
switch( some_string_variable )
{
case ViewTypes.View1: /* do something */ break;
case ViewTypes.View2: /* do something else */ break;
}

You can do it very easily actually. Use the following code.
enum GroupTypes
{
OEM,
CMB
};
Then when you want to get the string value of each enum element just use the following line of code.
String oemString = Enum.GetName(typeof(GroupTypes), GroupTypes.OEM);
I've used this method successfully in the past, and I've also used a constants class to hold string constants, both work out pretty well, but I tend to prefer this.

You can add attributes to the items in the enumeration and then use reflection to get the values from the attributes.
You would have to use the "field" specifier to apply the attributes, like so:
enum GroupTypes
{
[field:Description("OEM")]
TheGroup,
[field:Description("CMB")]
TheOtherGroup
}
You would then reflect on the static fields of the type of the enum (in this case GroupTypes) and get the DescriptionAttribute for the value you were looking for using reflection:
public static DescriptionAttribute GetEnumDescriptionAttribute<T>(
this T value) where T : struct
{
// The type of the enum, it will be reused.
Type type = typeof(T);
// If T is not an enum, get out.
if (!type.IsEnum)
throw new InvalidOperationException(
"The type parameter T must be an enum type.");
// If the value isn't defined throw an exception.
if (!Enum.IsDefined(type, value))
throw new InvalidEnumArgumentException(
"value", Convert.ToInt32(value), type);
// Get the static field for the value.
FieldInfo fi = type.GetField(value.ToString(),
BindingFlags.Static | BindingFlags.Public);
// Get the description attribute, if there is one.
return fi.GetCustomAttributes(typeof(DescriptionAttribute), true).
Cast<DescriptionAttribute>().SingleOrDefault();
}
I opted to return the DescriptionAttribute itself above, in the event that you want to be able to determine whether or not the attribute is even applied.

Use a class.
Edit: Better example
class StarshipType
{
private string _Name;
private static List<StarshipType> _StarshipTypes = new List<StarshipType>();
public static readonly StarshipType Ultralight = new StarshipType("Ultralight");
public static readonly StarshipType Light = new StarshipType("Light");
public static readonly StarshipType Mediumweight = new StarshipType("Mediumweight");
public static readonly StarshipType Heavy = new StarshipType("Heavy");
public static readonly StarshipType Superheavy = new StarshipType("Superheavy");
public string Name
{
get { return _Name; }
private set { _Name = value; }
}
public static IList<StarshipType> StarshipTypes
{
get { return _StarshipTypes; }
}
private StarshipType(string name, int systemRatio)
{
Name = name;
_StarshipTypes.Add(this);
}
public static StarshipType Parse(string toParse)
{
foreach (StarshipType s in StarshipTypes)
{
if (toParse == s.Name)
return s;
}
throw new FormatException("Could not parse string.");
}
}

Create a second enum, for your DB containing the following:
enum DBGroupTypes
{
OEM = 0,
CMB = 1
}
Now, you can use Enum.Parse to retrieve the correct DBGroupTypes value from the strings "OEM" and "CMB". You can then convert those to int and retrieve the correct values from the right enumeration you want to use further in your model.

Another way to deal with the problem, is to have a enum and a array of strings that will map the enum values with the list of strings:
public enum GroupTypes
{
TheGroup = 0,
TheOtherGroup
}
string[] GroupTypesStr = {
"OEM",
"CMB"
};
you may use it something like this:
Log.Write(GroupTypesStr[(int)GroupTypes.TheOtherGroup]);
It will prompt CMB
PROS:
Easy and clean code.
High Performance (specially in comparison with those approaches that
uses classes)
CONS:
Prone to mess up the list when editing it, but it will be okay for a
short list.

Here is the extension method that I used to get the enum value as string. First here is the enum.
public enum DatabaseEnvironment
{
[Description("AzamSharpBlogDevDatabase")]
Development = 1,
[Description("AzamSharpBlogQADatabase")]
QualityAssurance = 2,
[Description("AzamSharpBlogTestDatabase")]
Test = 3
}
The Description attribute came from System.ComponentModel.
And here is my extension method:
public static string GetValueAsString(this DatabaseEnvironment environment)
{
// get the field
var field = environment.GetType().GetField(environment.ToString());
var customAttributes = field.GetCustomAttributes(typeof (DescriptionAttribute), false);
if(customAttributes.Length > 0)
{
return (customAttributes[0] as DescriptionAttribute).Description;
}
else
{
return environment.ToString();
}
}
Now, you can access the enum as string value using the following code:
[TestFixture]
public class when_getting_value_of_enum
{
[Test]
public void should_get_the_value_as_string()
{
Assert.AreEqual("AzamSharpBlogTestDatabase",DatabaseEnvironment.Test.GetValueAsString());
}
}

New in .Net Core 3.0/C# 8.0 (if your work environment allows you to upgrade your project) is a short-hand switch statement that looks somewhat enum-ish. At the end of the day it's the same old boring switch statement we've been using for years.
Only real difference here is that the switch statement got a new suit.
public static RGBColor FromRainbow(Rainbow colorBand) =>
colorBand switch
{
Rainbow.Red => new RGBColor(0xFF, 0x00, 0x00),
Rainbow.Orange => new RGBColor(0xFF, 0x7F, 0x00),
Rainbow.Yellow => new RGBColor(0xFF, 0xFF, 0x00),
Rainbow.Green => new RGBColor(0x00, 0xFF, 0x00),
Rainbow.Blue => new RGBColor(0x00, 0x00, 0xFF),
Rainbow.Indigo => new RGBColor(0x4B, 0x00, 0x82),
Rainbow.Violet => new RGBColor(0x94, 0x00, 0xD3),
_ => throw new ArgumentException(message: "invalid enum value", paramName: nameof(colorBand)),
};
You'll notice that the code above which I copied from here, is actually using an enum as a param.
It's not exactly what you want (and trust me, I've wanted something of similar to what the OP is requesting for a long time), but I actually feel like this is somewhat of an olive branch from MS. JMO.
Hope it helps someone!

Why not just use the same enum, but just call .ToString()?
using System;
public class EnumSample
{
enum Holidays
{
Christmas = 1,
Easter = 2
};
public static void Main()
{
Enum myHolidays = Holidays.Christmas;
Console.WriteLine("The value of this instance is '{0}'", myHolidays.ToString());
}
}

Taken from #EvenMien and added in some of the comments. (Also for my own use case)
public struct AgentAction
{
private AgentAction(string value) { Value = value; }
public string Value { get; private set; }
public override string ToString() { return this.Value; }
public static AgentAction Login = new AgentAction("Login");
public static AgentAction Logout = new AgentAction("Logout");
public static implicit operator string(AgentAction action) { return action.ToString(); }
}

Have you considered a lookup table using a Dictionary?
enum GroupTypes
{
TheGroup,
TheOtherGroup
}
Dictionary<string, GroupTypes> GroupTypeLookup = new Dictionary<string, GroupTypes>();
// initialize lookup table:
GroupTypeLookup.Add("OEM", TheGroup);
GroupTypeLookup.Add("CMB", TheOtherGroup);
You can then use GroupTypeLookup.TryGetValue() to look up a string when you read it.

I would just create a dictionary and use the code as the key.
Edit: To address the comment about doing a reverse lookup (finding the key), this would not be terribly efficient. If this is necessary, I would write a new class to handle it.

public class DataType
{
private readonly string value;
private static readonly Dictionary<string, DataType> predefinedValues;
public static readonly DataType Json = new DataType("json");
public static readonly DataType Xml = new DataType("xml");
public static readonly DataType Text = new DataType("text");
public static readonly DataType Html = new DataType("html");
public static readonly DataType Binary = new DataType("binary");
static DataType()
{
predefinedValues = new Dictionary<string, DataType>();
predefinedValues.Add(Json.Value, Json);
predefinedValues.Add(Xml.Value, Xml);
predefinedValues.Add(Text.Value, Text);
predefinedValues.Add(Html.Value, Html);
predefinedValues.Add(Binary.Value, Binary);
}
private DataType(string value)
{
this.value = value;
}
public static DataType Parse(string value)
{
var exception = new FormatException($"Invalid value for type {nameof(DataType)}");
if (string.IsNullOrEmpty(value))
throw exception;
string key = value.ToLower();
if (!predefinedValues.ContainsKey(key))
throw exception;
return predefinedValues[key];
}
public string Value
{
get { return value; }
}
}

Here is my take on this, using C# 9.0 syntax to keep it clean. I define a base class for the enums:
public class StringEnum
{
protected StringEnum(string value) { Value = value; }
public string Value { get; }
public override string ToString() => Value;
}
Creating new enum style types is then easy and compact:
public class GroupTypes : StringEnum
{
private GroupTypes(string value) : base(value) {}
public static readonly GroupTypes TheGroup = new("OEM");
public static readonly GroupTypes TheOtherGroup = new("CMB");
}
Use it like this:
void Example(GroupTypes groupType)
{
Console.WriteLine(groupType); // Will print "OEM" or "CMB"
if (groupType == GroupTypes.TheGroup) { ... }
}
You can also add more functionality to StringEnum, which will then be available for all your subclasses (e. g., implementing IComparable and overriding Equals and GetHashCode)

My first question - Do you have access to the Database itself? This should be normalized in the database, ideally, otherwise, any solution is going to be prone to error. In my experience, data fields full of "OEM" and "CMB" tend to wind up having things like "oem " and other 'crap data' mixed in over time.... If you can normalize it, you could use the key in the table containing the elements as your Enum, and you're done, with a much cleaner structure.
If that's not available, I'd make your Enum, and make a class to parse your string into the Enum for you. This would at least give you some flexibility in handling non-standard entries and much more flexibility for trapping or handling errors than doing any of the workarounds using Enum.Parse/Reflection/etc. A dictionary would work, but could break down if you ever have case issues, etc.
I'd recommend writing a class so you can do:
// I renamed this to GroupType, since it sounds like each element has a single type...
GroupType theType = GroupTypeParser.GetGroupType(theDBString);
This preserves most of your readability without having to change the DB.

C# doesn't support enumerated strings, but for most situations you can use a List or Dictionary to get the desired effect.
E.g. To print pass/fail results:
List<string> PassFail = new List<string> { "FAIL", "PASS" };
bool result = true;
Console.WriteLine("Test1: " + PassFail[result.GetHashCode()]);

This is a way to use it as a strongly typed parameter or as a string :
public class ClassLikeEnum
{
public string Value
{
get;
private set;
}
ClassLikeEnum(string value)
{
Value = value;
}
public static implicit operator string(ClassLikeEnum c)
{
return c.Value;
}
public static readonly ClassLikeEnum C1 = new ClassLikeEnum("RandomString1");
public static readonly ClassLikeEnum C2 = new ClassLikeEnum("RandomString2");
}

A small tweak to Glennular Extension method, so you could use the extension on other things than just ENUM's;
using System;
using System.ComponentModel;
namespace Extensions {
public static class T_Extensions {
/// <summary>
/// Gets the Description Attribute Value
/// </summary>
/// <typeparam name="T">Entity Type</typeparam>
/// <param name="val">Variable</param>
/// <returns>The value of the Description Attribute or an Empty String</returns>
public static string Description<T>(this T t) {
DescriptionAttribute[] attributes = (DescriptionAttribute[])t.GetType().GetField(t.ToString()).GetCustomAttributes(typeof(DescriptionAttribute), false);
return attributes.Length > 0 ? attributes[0].Description : string.Empty;
}
}
}
Or Using Linq
using System;
using System.ComponentModel;
using System.Linq;
namespace Extensions {
public static class T_Extensions {
public static string Description<T>(this T t) =>
((DescriptionAttribute[])t
?.GetType()
?.GetField(t?.ToString())
?.GetCustomAttributes(typeof(DescriptionAttribute), false))
?.Select(a => a?.Description)
?.FirstOrDefault()
?? string.Empty;
}
}

Following the answer of #Even Mien I have tried to go a bit further and make it Generic, I seem to be almost there but one case still resist and I probably can simplify my code a bit.
I post it here if anyone see how I could improve and especially make it works as I can't assign it from a string
So Far I have the following results:
Console.WriteLine(TestEnum.Test1);//displays "TEST1"
bool test = "TEST1" == TestEnum.Test1; //true
var test2 = TestEnum.Test1; //is TestEnum and has value
string test3 = TestEnum.Test1; //test3 = "TEST1"
var test4 = TestEnum.Test1 == TestEnum.Test2; //false
EnumType<TestEnum> test5 = "TEST1"; //works fine
//TestEnum test5 = "string"; DOESN'T compile .... :(:(
Where the magics happens :
public abstract class EnumType<T> where T : EnumType<T>
{
public string Value { get; set; }
protected EnumType(string value)
{
Value = value;
}
public static implicit operator EnumType<T>(string s)
{
if (All.Any(dt => dt.Value == s))
{
Type t = typeof(T);
ConstructorInfo ci = t.GetConstructor(BindingFlags.Instance | BindingFlags.NonPublic,null, new Type[] { typeof(string) }, null);
return (T)ci.Invoke(new object[] {s});
}
else
{
return null;
}
}
public static implicit operator string(EnumType<T> dt)
{
return dt?.Value;
}
public static bool operator ==(EnumType<T> ct1, EnumType<T> ct2)
{
return (string)ct1 == (string)ct2;
}
public static bool operator !=(EnumType<T> ct1, EnumType<T> ct2)
{
return !(ct1 == ct2);
}
public override bool Equals(object obj)
{
try
{
return (string)obj == Value;
}
catch
{
return false;
}
}
public override int GetHashCode()
{
return Value.GetHashCode();
}
public static IEnumerable<T> All
=> typeof(T).GetProperties()
.Where(p => p.PropertyType == typeof(T))
.Select(x => (T)x.GetValue(null, null));
}
I only then have to declare this for my enums:
public class TestEnum : EnumType<TestEnum>
{
private TestEnum(string value) : base(value)
{}
public static TestEnum Test1 { get { return new TestEnum("TEST1"); } }
public static TestEnum Test2 { get { return new TestEnum("TEST2"); } }
}

I would make it into a class an avoid an enum altogether. And then with the usage of a typehandler you could create the object when you grab it from the db.
IE:
public class Group
{
public string Value{ get; set; }
public Group( string value ){ Value = value; }
public static Group TheGroup() { return new Group("OEM"); }
public static Group OtherGroup() { return new Group("CMB"); }
}

If I understand correctly, you need a conversion from string to enum:
enum GroupTypes {
Unknown = 0,
OEM = 1,
CMB = 2
}
static GroupTypes StrToEnum(string str){
GroupTypes g = GroupTypes.Unknown;
try {
object o = Enum.Parse(typeof(GroupTypes), str, true);
g = (GroupTypes)(o ?? 0);
} catch {
}
return g;
}
// then use it like this
GroupTypes g1 = StrToEnum("OEM");
GroupTypes g2 = StrToEnum("bad value");
You can make it more fancy with generics for the enum type if you wish.

In VS 2015, you can use nameof
public class LogCategory
{
public static string Trace;
public static string Debug;
public static string Info;
public static string Warning;
public static string Error;
}
Usage:
Logger.Write("This is almost like an enum.", nameof(LogCategory.Info));

I wanted to avoid using string literals completely, and also I didn't need to have space in item descriptions. More importantly, I wanted to have a mechanism to check if the provided string is a valid item, so I came up with this solution:
public class Seasons
{
public static string Spring { get; }
public static string Summer { get; }
public static string Fall { get; }
public static string Winter { get; }
public static bool IsValid(string propertyName)
{
if (string.IsNullOrEmpty(propertyName))
{
return false;
}
try
{
return typeof(Seasons).GetProperty(propertyName) != null;
}
catch
{
return false;
}
}
}
And here is how it works:
void Main()
{
string s = nameof(Seasons.Fall);
Console.WriteLine($"Fall is valid: {Seasons.IsValid(s)}"); // true
s = "WrongSeason";
Console.WriteLine($"WrongSeason is valid: {Seasons.IsValid(s)}"); // false
}
I tried to refactor IsValid() into a base class and use reflection to read the type (MethodBase.GetCurrentMethod().DeclaringType), but since I wanted to have it static, it returns the base class type, not the inherited type. Your remedy to this will be very welcomed! Here is what I was trying to achieve:
public class Seasons : ConstantStringsBase
{
// ... same
}
public class ConstantStringsBase
{
public static bool IsValid(string propertyName)
{
return MethodBase.GetCurrentMethod().DeclaringType.GetProperty(propertyName) != null;
}
}

Based in other opinions, this is what I come up with. This approach avoids having to type .Value where you want to get the constant value.
I have a base class for all string enums like this:
using System;
using Newtonsoft.Json;
[JsonConverter(typeof(ConstantConverter))]
public class StringEnum: IConvertible
{
public string Value { get; set; }
protected StringEnum(string value)
{
Value = value;
}
public static implicit operator string(StringEnum c)
{
return c.Value;
}
public string ToString(IFormatProvider provider)
{
return Value;
}
public TypeCode GetTypeCode()
{
throw new NotImplementedException();
}
public bool ToBoolean(IFormatProvider provider)
{
throw new NotImplementedException();
}
//The same for all the rest of IConvertible methods
}
The JsonConverter is like this:
using System;
using Newtonsoft.Json;
class ConstantConverter : JsonConverter
{
public override bool CanConvert(Type objectType)
{
return true;
}
public override object ReadJson(JsonReader reader, Type objectType, object existingValue, JsonSerializer serializer)
{
throw new NotImplementedException();
}
public override void WriteJson(JsonWriter writer, object value, JsonSerializer serializer)
{
if (value == null)
{
serializer.Serialize(writer, null);
}
else
{
serializer.Serialize(writer, value.ToString());
}
}
}
And an actual string enum will be something like this:
public sealed class Colors : StringEnum
{
public static Colors Red { get { return new Catalog("Red"); } }
public static Colors Yellow { get { return new Catalog("Yellow"); } }
public static Colors White { get { return new Catalog("White"); } }
private Colors(string value) : base(value) { }
}
And with this, you can just use Color.Red to even serialize to json without using the Value property

I even implemented a few enums as suggested by #Even (via class X and public static X members), just to find out later that these days, starting .Net 4.5, there's the right ToString() method.
Now I'm reimplementing everything back to enums.

You can use two enums. One for the database and the other for readability.
You just need to make sure they stay in sync, which seems like a small cost.
You don't have to set the values, just set the positions the same, but setting the values makes it very clear the two enums are related and prevents errors from rearranging the enum members. And a comment lets the maintenance crew know these are related and must be kept in sync.
// keep in sync with GroupTypes
public enum GroupTypeCodes
{
OEM,
CMB
}
// keep in sync with GroupTypesCodes
public enum GroupTypes
{
TheGroup = GroupTypeCodes.OEM,
TheOtherGroup = GroupTypeCodes.CMB
}
To use it you just convert to the code first:
GroupTypes myGroupType = GroupTypes.TheGroup;
string valueToSaveIntoDatabase = ((GroupTypeCodes)myGroupType).ToString();
Then if you want to make it even more convenient you can add an extension function that only works for this type of enum:
public static string ToString(this GroupTypes source)
{
return ((GroupTypeCodes)source).ToString();
}
and you can then just do:
GroupTypes myGroupType = GroupTypes.TheGroup;
string valueToSaveIntoDatabase = myGroupType.ToString();